Richard Mithen scite author profile

Concurrent with the increase in our knowledge of the genetic and environmental factors that lead to glucosinolate accumulation in plants, and the role of these compounds and their derivatives in mediating plant-herbivore interactions, there has been significant advances in our understanding of how glucosinolates and their products may contribute to a reduction in risk of carcinogenesis and heart disease when consumed as part of the diet. In this paper, we review the epidemiological evidence for the health promoting effects of cruciferous vegetables, the processes by which glucosinolates and isothiocyanates are absorbed and metabolised by humans, with particular regard to the role of glutathione S-transferases, and the biological activity of isothiocyanates towards mammalian cells and tissues.

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Glutathione S-transferase M1 polymorphism and metabolism of sulforaphane from standard and high-glucosinolate broccoli

Gasper

Al-janobi

Smith

et al. 2005

The American Journal of Clinical Nutrition

280

237

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Development of isothiocyanate-enriched broccoli, and its enhanced ability to induce phase 2 detoxification enzymes in mammalian cells

et al. 2003

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Broccoli florets contain low levels of 3-methylsuphinylpropyl and 4-methylsulphinylbutyl glucosinolates. Following tissue disruption, these glucosinolates are hydrolysed to the corresponding isothiocyanates (ITCs), which have been associated with anticarcinogenic activity through a number of physiological mechanisms including the induction of phase II detoxification enzymes and apoptosis. In this paper, we describe the development of ITC-enriched broccoli through the introgression of three small segments of the genome of Brassica villosa, a wild relative of broccoli, each containing a quantitative trait locus (QTL), into a broccoli genetic background, via marker-assisted selection and analysis of glucosinolates in the florets of backcross populations. Epistatic and heterotic effects of these QTLs are described. The ITC-enriched broccoli had 80-times the ability to induce quinone reductase (a standard assay of phase II induction potential) when compared to standard commercial broccoli, due both to an increase in the precursor glucosinolates and a greater conversion of these into ITCs.

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Richard Mithen

Glucosinolates, isothiocyanates and human health

Glutathione S-transferase M1 polymorphism and metabolism of sulforaphane from standard and high-glucosinolate broccoli

Development of isothiocyanate-enriched broccoli, and its enhanced ability to induce phase 2 detoxification enzymes in mammalian cells

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